A topological Hund nodal line antiferromagnet

Xian P. Yang; Yueh Ting Yao; Pengyu Zheng; Shuyue Guan; Huibin Zhou; Tyler A. Cochran; Che Min Lin; Jia Xin Yin; Xiaoting Zhou; Zi Jia Cheng; Zhaohu Li; Tong Shi; Md Shafayat Hossain; Shengwei Chi; Ilya Belopolski; Yu Xiao Jiang; Maksim Litskevich; Gang Xu; Zhaoming Tian; Arun Bansil; Zhiping Yin; Shuang Jia; Tay Rong Chang; M. Zahid Hasan

doi:10.1038/s41467-024-51255-3

A topological Hund nodal line antiferromagnet

Xian P. Yang, Yueh Ting Yao, Pengyu Zheng, Shuyue Guan, Huibin Zhou, Tyler A. Cochran, Che Min Lin, Jia Xin Yin, Xiaoting Zhou, Zi Jia Cheng, Zhaohu Li, Tong Shi, Md Shafayat Hossain, Shengwei Chi, Ilya Belopolski, Yu Xiao Jiang, Maksim Litskevich, Gang Xu, Zhaoming Tian, Arun BansilZhiping Yin, Shuang Jia, Tay Rong Chang, M. Zahid Hasan

Research output: Contribution to journal › Article › peer-review

Abstract

The interplay of topology, magnetism, and correlations gives rise to intriguing phases of matter. In this study, through state-of-the-art angle-resolved photoemission spectroscopy, density functional theory, and dynamical mean-field theory calculations, we visualize a fourfold degenerate Dirac nodal line at the boundary of the bulk Brillouin zone in the antiferromagnet YMn₂Ge₂. We further demonstrate that this gapless, antiferromagnetic Dirac nodal line is enforced by the combination of magnetism, space-time inversion symmetry, and nonsymmorphic lattice symmetry. The corresponding drumhead surface states traverse the whole surface Brillouin zone. YMn₂Ge₂ thus serves as a platform to exhibit the interplay of multiple degenerate nodal physics and antiferromagnetism. Interestingly, the magnetic nodal line displays a d-orbital dependent renormalization along its trajectory in momentum space, thereby manifesting Hund’s coupling. Our findings offer insights into the effect of electronic correlations on magnetic Dirac nodal lines, leading to an antiferromagnetic Hund nodal line.

Original language	English (US)
Article number	7052
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-51255-3
State	Published - Dec 2024

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Yang, X. P., Yao, Y. T., Zheng, P., Guan, S., Zhou, H., Cochran, T. A., Lin, C. M., Yin, J. X., Zhou, X., Cheng, Z. J., Li, Z., Shi, T., Hossain, M. S., Chi, S., Belopolski, I., Jiang, Y. X., Litskevich, M., Xu, G., Tian, Z., ... Hasan, M. Z. (2024). A topological Hund nodal line antiferromagnet. Nature communications, 15(1), Article 7052. https://doi.org/10.1038/s41467-024-51255-3

@article{745123bcf8b34b2bbc7913abc5ffb7fb,

title = "A topological Hund nodal line antiferromagnet",

abstract = "The interplay of topology, magnetism, and correlations gives rise to intriguing phases of matter. In this study, through state-of-the-art angle-resolved photoemission spectroscopy, density functional theory, and dynamical mean-field theory calculations, we visualize a fourfold degenerate Dirac nodal line at the boundary of the bulk Brillouin zone in the antiferromagnet YMn2Ge2. We further demonstrate that this gapless, antiferromagnetic Dirac nodal line is enforced by the combination of magnetism, space-time inversion symmetry, and nonsymmorphic lattice symmetry. The corresponding drumhead surface states traverse the whole surface Brillouin zone. YMn2Ge2 thus serves as a platform to exhibit the interplay of multiple degenerate nodal physics and antiferromagnetism. Interestingly, the magnetic nodal line displays a d-orbital dependent renormalization along its trajectory in momentum space, thereby manifesting Hund{\textquoteright}s coupling. Our findings offer insights into the effect of electronic correlations on magnetic Dirac nodal lines, leading to an antiferromagnetic Hund nodal line.",

author = "Yang, \{Xian P.\} and Yao, \{Yueh Ting\} and Pengyu Zheng and Shuyue Guan and Huibin Zhou and Cochran, \{Tyler A.\} and Lin, \{Che Min\} and Yin, \{Jia Xin\} and Xiaoting Zhou and Cheng, \{Zi Jia\} and Zhaohu Li and Tong Shi and Hossain, \{Md Shafayat\} and Shengwei Chi and Ilya Belopolski and Jiang, \{Yu Xiao\} and Maksim Litskevich and Gang Xu and Zhaoming Tian and Arun Bansil and Zhiping Yin and Shuang Jia and Chang, \{Tay Rong\} and Hasan, \{M. Zahid\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-51255-3",

language = "English (US)",

volume = "15",

journal = "Nature communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "1",

}

Yang, XP, Yao, YT, Zheng, P, Guan, S, Zhou, H, Cochran, TA, Lin, CM, Yin, JX, Zhou, X, Cheng, ZJ, Li, Z, Shi, T, Hossain, MS, Chi, S, Belopolski, I, Jiang, YX, Litskevich, M, Xu, G, Tian, Z, Bansil, A, Yin, Z, Jia, S, Chang, TR & Hasan, MZ 2024, 'A topological Hund nodal line antiferromagnet', Nature communications, vol. 15, no. 1, 7052. https://doi.org/10.1038/s41467-024-51255-3

TY - JOUR

T1 - A topological Hund nodal line antiferromagnet

AU - Yang, Xian P.

AU - Yao, Yueh Ting

AU - Zheng, Pengyu

AU - Guan, Shuyue

AU - Zhou, Huibin

AU - Cochran, Tyler A.

AU - Lin, Che Min

AU - Yin, Jia Xin

AU - Zhou, Xiaoting

AU - Cheng, Zi Jia

AU - Li, Zhaohu

AU - Shi, Tong

AU - Hossain, Md Shafayat

AU - Chi, Shengwei

AU - Belopolski, Ilya

AU - Jiang, Yu Xiao

AU - Litskevich, Maksim

AU - Xu, Gang

AU - Tian, Zhaoming

AU - Bansil, Arun

AU - Yin, Zhiping

AU - Jia, Shuang

AU - Chang, Tay Rong

AU - Hasan, M. Zahid

PY - 2024/12

Y1 - 2024/12

N2 - The interplay of topology, magnetism, and correlations gives rise to intriguing phases of matter. In this study, through state-of-the-art angle-resolved photoemission spectroscopy, density functional theory, and dynamical mean-field theory calculations, we visualize a fourfold degenerate Dirac nodal line at the boundary of the bulk Brillouin zone in the antiferromagnet YMn2Ge2. We further demonstrate that this gapless, antiferromagnetic Dirac nodal line is enforced by the combination of magnetism, space-time inversion symmetry, and nonsymmorphic lattice symmetry. The corresponding drumhead surface states traverse the whole surface Brillouin zone. YMn2Ge2 thus serves as a platform to exhibit the interplay of multiple degenerate nodal physics and antiferromagnetism. Interestingly, the magnetic nodal line displays a d-orbital dependent renormalization along its trajectory in momentum space, thereby manifesting Hund’s coupling. Our findings offer insights into the effect of electronic correlations on magnetic Dirac nodal lines, leading to an antiferromagnetic Hund nodal line.

AB - The interplay of topology, magnetism, and correlations gives rise to intriguing phases of matter. In this study, through state-of-the-art angle-resolved photoemission spectroscopy, density functional theory, and dynamical mean-field theory calculations, we visualize a fourfold degenerate Dirac nodal line at the boundary of the bulk Brillouin zone in the antiferromagnet YMn2Ge2. We further demonstrate that this gapless, antiferromagnetic Dirac nodal line is enforced by the combination of magnetism, space-time inversion symmetry, and nonsymmorphic lattice symmetry. The corresponding drumhead surface states traverse the whole surface Brillouin zone. YMn2Ge2 thus serves as a platform to exhibit the interplay of multiple degenerate nodal physics and antiferromagnetism. Interestingly, the magnetic nodal line displays a d-orbital dependent renormalization along its trajectory in momentum space, thereby manifesting Hund’s coupling. Our findings offer insights into the effect of electronic correlations on magnetic Dirac nodal lines, leading to an antiferromagnetic Hund nodal line.

UR - https://www.scopus.com/pages/publications/85201406864

UR - https://www.scopus.com/inward/citedby.url?scp=85201406864&partnerID=8YFLogxK

U2 - 10.1038/s41467-024-51255-3

DO - 10.1038/s41467-024-51255-3

M3 - Article

C2 - 39147740

AN - SCOPUS:85201406864

SN - 2041-1723

VL - 15

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 7052

ER -

A topological Hund nodal line antiferromagnet

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